Hi, I am an engineering student and I find your theories fascinated. However, if you will allow me, I would like to question several, as I have read your FAQ.
1.
Q: "What about satellites? How do they orbit the Earth?"
A1: They don't, satellite signals come from radio towers.
-- Ok, how do you account for satelite television and GPS navigation? As for satelite television, not only do radio waves not transmit in the correct frequency as satelite waves, the bandwidth off of a radio tower is incapable of transmiting such signals. Also, how do you account for the engineers who created the satelite dishes and work for the satelite television companies? And why do satelite dishes on houses have to be positioned, and pointed at a certain part of the sky in order to work? (My dish had to be recalibrated after an intense thunder storm, as the wind moved it.)
As for GPS navigation, how could radio towers possibly produce such an effect? You need three satelites to triangulate a position. So when there are teams in the arctic tundra, there are radio towers triangulating their positions?
2.
Q: "What's underneath the Earth?" aka "What's on the bottom?" aka "What's on the other side?"
A: This is unknown. Some believe it to be just rocks, others believe the Earth rests on the back of four elephants and a turtle.
-- This one puzzels me. Is this part a joke? "...others believe the Earth rests on the back of four elephants and a turtle." Is that some kind of metaphor?
3.
Q: Follow-up to previous question: How is it that the Earth does not have a gravitational pull, but stars and the moon do?
A: This argument is a non sequitur. You might as well ask, "How is it that snakes do not have legs, but dogs and cats do?" Snakes are not dogs or cats. The Earth is not a star or the moon. It doesn't follow that each must have exactly the properties of the others, and no more.
-- ALL matter has a gravitational field. That is, any object with mass acts upon all other objects around it. Please look up the Cavendish experiment.
*****Thank you for your time. I will look foward to a response.